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Genome-wide fitness gene identification reveals Roquin as a potent suppressor of CD8 T cell expansion and anti-tumor immunity

Hanfei Zhao, Ying Liu, Lixia Wang, Gang Jin, Xiaocui Zhao, Jing Xu, Guangyue Zhang, Yuying Ma, Na Yin, Min Peng

2021Cell Reports57 citationsDOIOpen Access PDF

Abstract

Robust expansion of adoptively transferred T cells is a prerequisite for effective cancer immunotherapy, but how many genes in the genome modulate T cell expansion remains unknown. Here, we perform in vivo and in vitro CRISPR screens to systematically identify genes influencing CD8 T cell expansion. In the mouse genome, ∼2,600 and ∼1,500 genes are required for optimal CD8 T cell expansion in vivo and in vitro, respectively. In vivo-specific CD8 T cell essential genes are enriched in metabolic pathways, including mitochondrial metabolism. The strongest repressor of CD8 T cell expansion is Roquin, the ablation of which drastically boosts T cell proliferation by enhancing cell-cycle progression and upregulation of IRF4. Roquin deficiency or IRF4 overexpression potently enhances anti-tumor immunity. These data provide a functional catalog of CD8 T cell fitness genes and suggest that targeting the Roquin-IRF4 axis is an effective strategy to enhance efficacy of adoptive transfer therapy for cancer.

Topics & Concepts

BiologyCD8T cellCancer researchAdoptive cell transferCytotoxic T cellCancer immunotherapyImmunotherapyCell biologyGeneticsIn vitroImmune systemCAR-T cell therapy researchImmune Cell Function and InteractionT-cell and B-cell Immunology